Mostly data types are character strings, which might be called VARCHAR or CHAR for variable or fixed length strings; numeric types such as NUMBER or INTEGER, which will sually specify a precision; and DATE or related types. Data type syntax is variable from system to system.

2) The alter table statement may be used to specify primary and foreign key Constraints, as well as to make other modifications to the table structure. Key constraints may also be specified in the CREATE TABLE statement.

You get to specify the constraint name. Get used to following a convention of table name_ pk (for example, Customers_ pk), so you can remember what you did later. The attribute list contains the one or more attributes that form this PK; if more than one, the names are separated by commas.

3) The foreign key constraint is a bit more complicated, since we have to Specify both the FK attributes in this (child) table, and the PK attributes That they link to in the parent table.

Name the constraint in the form childtable_parenttable_fk (for example, Orders_Customers_fk). If there is more than one attribute in the FK, all of them must be included (with commas between) in both the FK attribute list and the REFERENCES (parent table) attribute list.You need a separate foreign key definition for each relationship in which this table is the child.

4) If you totally mess things up and want to start over, you can always get rid of any object you've created with a drop statement. The syntax is different for tables and constraints.

This is where consistent constraint naming comes in handy, so you can just Remember the PK or FK name rather than remembering the syntax for looking up the names in another table. The DROP TABLE statement gets rid of its own PK constraint, but won’t work until you separately drop any FK constraints (or child tables) that refer to this one.

5) All of the information about objects in your schema is contained, not surprisingly, in a set of tables that is called the data dictionary . There are hundreds of these tables most database systems, but all of them will allow you to see information about your own tables, in many cases with a graphical interface. How you do this is entirely system-dependent.

Data manipulation language:-

DML statements are used to work with the data in tables. When you are connected to most multi-user databases (whether in a client program or by a connection from a Web page script), you are in effect working with a private Copy of your tables that can’t be seen by anyone else until you are finished (or Tell the system that you are finished). You have already seen the SELECT Statement; it is considered to be part of DML even though it just retrieves data Rather than modifying it.

1) The insert statement is used, obviously, to add new rows to a table.

Insert into <table name>Values (<value 1>,…<value n>;

The comma-delimited list of values must match the table structure exactly in the number of attributes and the data type of each attribute. Character type values are always enclosed in single quotes; number values are never in quotes; date values are often (but not always) in the format 'yyyy-mm-dd' (for example, '2006-11-30'). Yes, you will need a separate INSERT statement for every row.

2) The update statement is used to change values that are already in a table.

Update <table name>Set <attribute> = <expression>Where <condition>;

The update expression can be a constant, any computed value, or even the result of a SELECT statement that returns a single row and a single column. If the WHERE clause is omitted, then the specified attribute is set to the same value in every row of the table (which is usually not what you want to do). You can also set multiple attribute values at the same time with a comma-delimited list of attribute=expression pairs.

3) The delete statement does just that, for rows in a table.

Delete from <table name>Where <condition>

If the WHERE clause is omitted, then every row of the table is deleted (which again is usually not what you want to do)—and again, you will not get a “do you really want to do this?” message.

4) If you are using a large multi-user system, you may need to make your DML changes visible to the rest of the users of the database. Although this might be done automatically when you log out, you could also just type:

Commit;

5) If you've messed up your changes in this type of system, and want to restore your private copy of the database to the way it was before you started (this only works if you haven’t already typed COMMIT), just type:

Rollback;

Although single-user systems don’t support commit and rollback statements, they are used in large systems to control transactions, which are sequences of changes to the database. Transactions are frequently covered in more advanced courses.

Privileges

If you want anyone else to be able to view or manipulate the data in your tables, and if your system permits this, you will have to explicitly grant the appropriate privilege or privileges (select, insert, update, or delete) to them. This has to be done for each table. For example: Grant select, insert on customers to web user;

What are the difference between DDL, DML and DCL commands?

Data Definition Language (DDL)statements are used to define the database structure or schema. Some examples:
CREATE - to create objects in the database
ALTER - alters the structure of the database
DROP - delete objects from the database
TRUNCATE - remove all records from a table, including all spaces allocated for the records are removed
COMMENT - add comments to the data dictionary
RENAME - rename an object

Transaction Control (TCL) statements are used to manage the changes made by DML statements. It allows statements to be grouped together into logical transactions.
COMMIT - save work done
SAVEPOINT - identify a point in a transaction to which you can later roll back
ROLLBACK- restore database to original since the last COMMIT
SET TRANSACTION - Change transaction options like isolation level and what rollback
DML statements can be roll backed where DDL are auto commit.